Shunji Hiwatashi scite author profile

The yield strength was investigated in a prestrained and baked bake-hardenable sheet steel, which can increase the dent-resistance of exterior automotive body panels. Instead of a standard bake-hardenability test in which the final tensile test is in the same direction as prestrain, the strain-path effect in denting of stamped and paint-baked panels was examined by changing the direction of final tensile tests in uniaxially prestrained and baked samples. The prestrained samples showed the maximum of 0.2% proof stress at 45° to the prestrain axis and the minimum at 90°. Baking raised the minimums at 0° and 90° so that the anisotropy decreases. Furthermore, the strain path changes were characterized by a scalar product of previous and current strain-rate mode tensors. By regarding this parameter as the degree of reactivation of slip systems, the anisotropy observed after prestraining and baking was microscopically explained from the viewpoints of residual stress, crystal plasticity, and dislocation pinning.

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Microstructural developments in Fe-Cr-W low activation ferritic steels under dual beam charged particle irradiation

Hiwatashi

Kohno

Asakura

1991

Journal of Nuclear Materials

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Shunji Hiwatashi

Prediction of forming limit strains under strain-path changes: Application of an anisotropic model based on texture and dislocation structure

Resistance Spot Weldability of High Strength Steel Sheets for Automobiles and the Quality Assurance of Joints

Modelling of plastic anisotropy based on texture and dislocation structure

Anisotropic Increase in Yield Strength by Straining and Baking of Bake-Hardenable Steel

Microstructural developments in Fe-Cr-W low activation ferritic steels under dual beam charged particle irradiation

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